from __future__ import absolute_import
from __future__ import print_function
import sys
import os
from optparse import OptionParser

# the next line can be removed after installation
sys.path.insert(0, os.path.dirname(os.path.dirname(os.path.abspath(__file__))))

import pyverilog.utils.version
from pyverilog.dataflow.dataflow_analyzer import VerilogDataflowAnalyzer

def main():
    INFO = "Verilog module signal/module dataflow analyzer"
    VERSION = pyverilog.utils.version.VERSION
    USAGE = "Usage: python example_dataflow_analyzer.py -t TOPMODULE file ..."

    def showVersion():
        print(INFO)
        print(VERSION)
        print(USAGE)
        sys.exit()
    
    optparser = OptionParser()
    optparser.add_option("-v","--version",action="store_true",dest="showversion",
                         default=False,help="Show the version")
    optparser.add_option("-I","--include",dest="include",action="append",
                         default=[],help="Include path")
    optparser.add_option("-D",dest="define",action="append",
                         default=[],help="Macro Definition")
    optparser.add_option("-t","--top",dest="topmodule",
                         default="TOP",help="Top module, Default=TOP")
    optparser.add_option("--nobind",action="store_true",dest="nobind",
                         default=False,help="No binding traversal, Default=False")
    optparser.add_option("--noreorder",action="store_true",dest="noreorder",
                         default=False,help="No reordering of binding dataflow, Default=False")
    (options, args) = optparser.parse_args()
    options.topmodule='top'
    filelist = [] #args
    filelist.append('D:/LCP_LAB_SCIENCE/HDLTool/PyVerilog_test/new1.v')
    if options.showversion:
        showVersion()

    for f in filelist:
        if not os.path.exists(f): raise IOError("file not found: " + f)

    if len(filelist) == 0:
        showVersion()

    analyzer = VerilogDataflowAnalyzer(filelist, options.topmodule,
                                       noreorder=options.noreorder,
                                       nobind=options.nobind,
                                       preprocess_include=options.include,
                                       preprocess_define=options.define)
    analyzer.generate()

    directives = analyzer.get_directives()
    print('Directive:')
    for dr in sorted(directives, key=lambda x:str(x)):
        print(dr)

    instances = analyzer.getInstances()
    print('Instance:')
    for module, instname in sorted(instances, key=lambda x:str(x[1])):
        print((module, instname))

    print('Signal:')
    signals = analyzer.getSignals()
    for sig in signals:
        print(sig)

    print('Const:')
    consts = analyzer.getConsts()
    for con in consts:
        print(con)
    
    if options.nobind:
        print('Signal:')
        signals = analyzer.getSignals()
        for sig in signals:
            print(sig)

        print('Const:')
        consts = analyzer.getConsts()
        for con in consts:
            print(con)

    else:
        terms = analyzer.getTerms()
        print('Term:')
        analyzer.genDLpair(terms)
        for tk, tv in sorted(terms.items(), key=lambda x:str(x[0])):
            print(tv.tostr())
   
        binddict = analyzer.getBinddict()
        print('Bind:')
        for bk, bv in sorted(binddict.items(), key=lambda x:str(x[0])):
            for bvi in bv:
                print(bvi.tostr())

if __name__ == '__main__':
    main()
